Novel flake feed, especially for aquatic animals

ABSTRACT

Novel flake feeds are described, especially for aquatic animals, such as fish, shrimps and invertebrates, characterised in that the flakes have a uniform form, a variable thickness and a water content of from 1 to 30%, as well as a process for the production thereof.

[0001] The present invention is concerned with novel flake feeds for aquatic animals, especially fish, shrimps and invertebrates, in fresh and sea water and is also concerned with a process for the production thereof.

[0002] The production of cereal flakes, for example of rolled oats, for human nutrition with the help of a flaking process is known. Cereal flakes are products of hulling which are preponderantly produced from oats, wheat, rye, barley, millet and rice. For the production of rolled oats, whole grains, as well as groats, are converted into a formable, elastic structure by hydrothermal treatment. The damped material is applied uniformly to a flaking cylinder mill, the pressure of which can be regulated hydraulically. A differentiation is made between large leaf flakes (flakes from the whole grain) with about 0.5 mm rolling-out thickness and small leaf flakes (flakes from groats) with 0.3 mm rolling-out thickness.

[0003] Flake feeds are also known for the nutrition of warm and cold water ornamental fish in fresh and sea water. At present, flake feeds for fish are characterised in that they are produced with drum driers. Drum drying is a process for the drying of raw material mixtures which are made liquid to pasty by the addition of water. At the moment, it represents the state of the art and is generally available, Therefore, flake feed for ornamental fish from different manufacturers scarcely differ superficially.

[0004] In the case of the production of flake feeds for ornamental fish, an internally heated roller is impinged against uniformly by means of an application device over. the whole length of the roller with a previously pasted, viscous raw material mixture (moisture content of the paste about 75%) which, in the case of rotation, the roller takes with it as a thin film on the surface of the roller. During the rotary movement, the water evaporates, which requires a high supply of energy. The dried product is removed with a moisture content of about 2 to 5% by means of knives as a flake strip from the surface of the roller. The final moisture content, which plays an important part for the techanical properties, especially the brittleness of the feed flakes, as well as for the acceptance thereof, can only be adjusted within narrow limits in the case of this process. The thickness of the flake strip produced according to the above-mentioned process is about 0,15 mm, depending upon the raw materials used, and cannot be varied very much. The steam temperature for beating the roller is 120 to 165° C. Therefore, heat-labile raw materials, for example enzymes and probiotics, cannot be used. After the production process, a comminution of the cohering flake strip takes place to give a saleable flake feed which consists of individual flakes of differing sizes which are characterised by an uneven form and which find use for the nutrition of aguatic animals, especially of ornamental fish.

[0005] The object of the present invention is the development of novel flake feeds, especially for aquatic animals, for example fish, shrimps and invertebrates, which can be used in fresh and sea water and especially for warm and cold water ornamental fish in aguaria and garden ponds which, for the user, differ comprehensibly from the products previously on the market with regard to thickness, brittleness, consistency and/or external form or by the use of hitherto not usable, heat-labile raw materials.

[0006] Surprisingly, it has now been found that, by means of a special production process, the rolling out of individually formed bodies, preferably produced with an extruder, for example a double-screw extruder or expander, such feed flakes can be produced. Without additional working steps, this process provides uniformly shaped flakes with a veriable thickness of from 10 μm to 5 mm and preferably of from 80 to 140 μm. Due to the possibility of a variation of the flake form, of the flake thickness and of the flake moisture content, as well as due to the possibility of using heat-labile raw materials, the flakes so produced possess substantially better properties than the flake feeds at present known.

[0007] Therefore, the subject of the present invention are novel flake feeds for aquatic animals, for example fish, shrimps and invertebrates, in fresh and sea water which are characterised in that the flakes have an uniform shape, a variable thickness and a water content of from 1to 30% and preferably of from 4 to 25%.

[0008] A further subject of the present invention is a process for the production of a flake feed from appropriate feed components which comprises the following steps:

[0009] a) production of formed bodies of appropriate dimensions; and

[0010] b) rolling out of the formed bodies to give individual flakes.

[0011] The special production process comprises the following process steps. Preferably by means of an extruder, for example a double-screw extruder, formed bodies (water content about 40% or less) are produced of such dimensions that, in the case of subsequent rolling out thereof in an appropriate cylinder mill, individual flakes are produced with a variable thickness of from 10 μm to 5 mm and a diameter of from 1 to 100 mm, The distance between the rollers of a flaking device having two rotating rollers determines the thickness of the flakes. In the case of the production of the formed bodies, the temperature can be reduced to <70° C. These flakes can then be subjected to a drying and/or cooling to the desired end water content.

[0012] The production process according to the present invention permits the industrial production of feed flakes with improved functional and physical properties which could not be achieved with the previously known processes for the production of flake feeds by the drying of a raw material slurry on drum driers:

[0013] Uniform flake form: there can be produced uniformly shaped, for example round, oval, corrugated, heart- or fish-shaped flakes or otherwise uniformly geometrically formed flakes;

[0014] Uniform flake size: by means of the directed production of formed bodies of definite size with subsequent rolling out, flakes can be produced in uniform size of from 1 to 100 mm;

[0015] Improved mechanical properties: by means of the specific adjustment of the water content, the flake stability is increased. The proportion of small flakes (broken pieces) is thereby reduced, for example in the case of the production of flake mixtures, which leads to a reduction of the bulk density or of the package filling weight. Additional working steps, for example sieving off of the broken pieces, can be omitted;

[0016] Improved flake consistency, production of soft flakes: by adjustment of a water content of 8 to 25%, it is possible to produce extremely soft and elastie flakes which are better taken up by the fish;

[0017] Specific adjustment of the floating and sinking behaviour: the adjustment of the roller distance in the case of the rolling-out process determines the flake thickness. Thinner flakes than the ones at present known show an improved floating and sinking behaviour. Thicker flakes possess an increased speed of sinking. Thus, a mixture of flakes of differing thickness leads to a product which is equally optimal for all fish, regardless of whether they preferably feed from the surface, from the middle water or from the bottom;

[0018] Ability to produce multicoloured individual flakes: by means of the flaking of multicoloured formed bodies, flakes can be produced which have two or more colours;

[0019] Introduction or protection of temperature-sensitive substances: the low process temperatures of the novel process <70° C.) makes possible the use of raw materials which, because of their temperature lability, could not previously be used:

[0020] natural odoriferous and flavouring materials, as well as natural colouring materials: improve the attractiveness and acceptance of the flakes;

[0021] active enzymes: improve the bioavailability of the nutrient materials: such a feed reduces the pollution of the water caused bg the feed and contributes to an ecological optimisation of the water quality;

[0022] living bacteria and yeasts: can be used as digestion regulators (probiotics): in this way, an improved weight development of the fish can be achieved in the case of the same feed consumption;

[0023] addition of promoters, for example growth and spawn promotors for the improvement of growth and for increasing the spawning readiness;

[0024] the breakdown rates of value-determining raw material components (vitamins, colour strengtheners) are reduced by the low process temperatures; the safety additives used for this purpose can be reduced, which leads to cost savings.

[0025] Furthermore, the energy costs for the drying of the flake feed to the desired end moisture content are considerably lower than in the case of production processes according to the prior art which depend upon the drum drying of a raw material slurry, which usually has an initial water content of >60%, since, in the case of the process according to the present invention, the initial moisture content of the formed bodies is <40% water. Thus, the novel production process according to the present invention offers considerable advantages in comparison with the prior art not only with regard to the properties of the flake feed to be produced therewith but also with regard to the energy costs necessary for the production. 

1. Flake feed, characterised in that the flakes have a uniform form, a variable thickness and a water content of from 1 to 30% and preferably of from 4 to 25%.
 2. Flake feed according to claim 1, characterised in that it contains individual flakes with a variable thickness of from 10 μm to 5 mm.
 3. Flake feed according to claim 1 or 2, characterised in that it contains individual flakes with a variable thickness of from 80 to 140 μm.
 4. Flake feed according to claims 1 to 3, characterised in that it contains individual flakes with a diameter of from 1 to 100 mm.
 5. Flake feed according to claims 1 to 4, characterised in that the flakes contain temperature-sensitive substances.
 6. Flake feed according to claim 5, characterised in that the temperature-sensitive substances are selected from odoriferous and flavouring materials, colouring materials, enzymes, promotors, probiotics, vitamins and colour strengtheners.
 7. Flake feed according to claim 6, characterised in that the probiotics are living bacteria or yeasts.
 8. Flake feed according to claim 6 or 7, characterised in that the promoters are growth promoters or fertility promoters.
 9. Flake feed according to claims 1 to 8, characterised in that the flakes have a round, oval, corrugated, heart- or fish-shaped form or some other uniform geometrical shape.
 10. Process for the production of a flake feed from appropriate feed components which comprises the following steps: a) production of formed bodies of appropriate dimensions and b) rolling out of the formed bodies to give individual flakes.
 11. Process according to claim 10, characterised in that the formed bodies obtained in step a) have a water content of 40% or less.
 12. Process according to claim 10 or 11, characterised in that the production of the formed bodies in step a) takes place with the help of an extruder or expander.
 13. Process according to any of claims 10 to 12, characterised in that the production in step a) is carried out at a temperature of from 60 to 150° C.
 14. Process according to any of claims 10 to 12, characterised in that the production in step a) is carried out at a temperature of 70° C. or below.
 15. Process according to any of claims 10 to 14, characterised in that the production in step b) takes place with the help of a cylinder mill.
 16. Process according to any of claims 10 to 15, characterised in that the individual flakes are subjected after step b) to a drying and/or cooling to the desired end water content.
 17. Process according to any of claims 10 to 16, characterised in that the end water content is 1 to 30% and preferably 4 to 25%.
 18. Use of a flake feed according to any of claims 1 to 9 for aquatic animals.
 15. Use according to claim 18, characterised in that the aquatic animals are fish, shrimps or invertebrates in fresh or sea water. 